Rice Embryo Globulins: Amino-Terminal Amino Acid Sequences, cDNA Cloning and Expression

A globulin fraction prepared from rice embryos contained polypeptidesor polypeptide groups of 49 kDa (designated REG1), 46 kDa (designatedREG2), about 35 kDa, 32 kDa and 25 kDa. The amino-terminal sequencesof REG1 and the major polypeptide in the 35-kDa group were identical,suggesting that the REG1 polypeptide undergoes partial proteolyticprocessing that removes a carboxy-terminal region. A cDNA clone,designated pcREG2, encoding REG2 was isolated, and its nucleotidesequence was determined. The deduced amino acid sequence ofREG2 was found to be 68% identical to that of the maize GLB2globulin. Reg2 mRNA was present at high levels during embryodevelopment for up to 14 days after flowering (DAF). Lower levelswere found 20 DAF when the maturation of embryos was almostcompleted, and at the dry mature stage. Reg2 mRNA almost disappearedupon imbibition of isolated dry mature embryos but it was re-inducedat a low level by further treatment with ABA. The expressionof Reg2 was not induced by ABA in suspension-cultured cells,unlike that of Osem, one of the late embryogenesis abundantprotein (LEA) genes. (Received November 6, 1995; Accepted April 22, 1996)     

Isolation of the D1 Protein and a 28-kDa Fragment of the D2 Protein from Spinach Photosystem II Membranes

The 32-kDa D1 protein, which contained no lysine in spinachchloroplasts, as deduced from its DNA code, was isolated byhigh-performance gel permeation chromatography in the presenceof 0.1% SDS and 4 M urea. Three proteins of the photosystemII reaction center complex have a molecular mass of 30–35kDa, and two, the D2 protein and the peripheral 33-kDa protein,were severed into peptide fragments by Achromobacter lysyl endopeptidase(EC 3.4.14.50 [EC] ) before the chromatography. The isolated D1 proteindid not contain chlorophylls and pheophytins but had an absorptionmaximum at 265 nm probably due to bound plastoquinone. A peptidefragment of 28 kDa from the D2 protein was also isolated fromspinach photosystem II membranes and the wheat photosystem IIreaction center. Antibodies raised against the 28-kDa peptidefrom wheat bound to the 34-kDa D2 protein, which suggested thatthis peptide was the largest sequence of Aspl4-Lys265. The fragmentof wheat D2 protein showed absorption maxima at 413 and 682nm attributable to bound pheophytin that probably had been convertedfrom chlorophyll a during the isolation process. (Received June 29, 1987; Accepted October 21, 1987)     

Isolation and Characterization of the Cytochrome bf Complex from Whole Thylakoids, Grana, and Stroma Lamellae Vesicles from Spinach Chloroplasts

The cytochrome bf complex was isolated from spinach thylakoids,and also from separated grana and stroma lamellae vesicles,by a procedure involving NaBr washing, detergent treatment andcentrifugation in sucrose gradients. The resulting complex fromall three types of membranes, were almost completely devoidof chlorophyll and carotenoids. The complexes have kinase activitytowards histone III-S and contain a 64 kDa protein claimed tobe a kinase. Electrophoretic analyses indicate that the complexesare in dimeric form and composed of six polypeptides with molecularmasses of 34/33, 23, 20, 17, 12 and 4 kDa. The complexes containtwo moles cytochrome b₆ per mole cytochrome f and one mole RieskeFeS. The 17 kDa and 4 kDa polypeptides are the so called subunit4 and 5 respectively. The 12 kDa protein was identified as plastocyaninby immunoblotting. Plastocyanin and the 4 kDa protein were presentin the cytochrome bf complex even after a second repeated sucrosedensity gradient centrifugation. The sucrose gradient sedimentation pattern was different forthe grana and stroma lamellae complexes. The complex from thestroma lamellae arrives at a higher density than the grana complex.Furthermore, the gradient centrifugation diagram of the stromalamellae consists of one main peak while the diagram of thegrana complex shows two peaks. There is significantly more plastocyaninand 4 kDa protein in the bf complex isolated from stroma lamellaethan from grana. In addition there is a 15 kDa protein in thecomplex isolated from the grana vesicles. Immunoblot analysisafter crosslinking indicated that the 4 kDa protein and theplastocyanin are associated in the cytochrome bf complex. Theoxidoreductase activity is higher (about 50%) in the cytochromebf complex from the grana than from the stroma lamellae fraction.We suggest that a difference in composition of the cytochromebf complex between the two membranes might be important in theregulation of cyclic and non cyclic electron flow. ¹Present address: Department of Plant Physiology II, Universityof Warsaw, 00 927 Warsaw, Poland     

Distribution of Vacuolar H+-Pyrophosphatase and a Membrane Integral Protein in a Variety of Green Plants

Vacuolar membranes isolated from several species including fernand moss exhibited pyro-phosphate-dependent H⁺ transport activity.On immunoblot analysis, H⁺ -pyrophosphatase was detected inthe vacuolar membranes. A membrane integral protein of 23,000daltons was not found in the membranes of Chara, Conocephalum,or Kalanchoë. Thus, H⁺-pyrophosphatase may be a universalenzyme among green plants, but the 23-kDa protein is not a commonprotein of central vacuoles. (Received September 10, 1993; Accepted November 29, 1993)     

Fine Structural Details of Tannin Accumulations in Non-Dividing Cambial Cells

The fine structure of autumn cambial cells of Aesculus hippocastanumand Populus x euramericana reveals the presence of electron-densebodies, other than lipids, in both the cytoplasm and vacuoles.These deposits are identified as tannins following a cytochemicaltest with ferrous sulphate. Small tannin bodies associated withthe strands of ER and inside small vesicles are often evidentin the cytoplasm. The cytoplasmic tannins are deposited intovacuoles by fusion of the tannin-containing vesicles with thetonoplast. The positive reaction of tannin inclusions with periodicacid-thiocarbohydrazide-silver proteinate suggests their polysaccharidicnature. The observations support the role of ER in tannin synthesisand deposition into the central vacuole. Aesculus hippocastanum, Populus x euramericana, cambial cells, tannin, vacuoles     

A potential mucus precursor in Tetrahymena wild type and mutant cells.

By using an antibody to a specific mucus polypeptide (34 kDa) to study whole cell extracts of both a secretory mutant (SB281) and wild type (wt) Tetrahymena, we demonstrate that a 57-kDa polypeptide is a probable precursor to the 34-kDa secretory polypeptide. We postulate that the precursor accumulates in the mutant cells because it cannot be cleaved. This mutant contains no recognizable mature secretory granules (mucocysts). By immunoelectron microscopy, the 34-kDa polypeptide was localized in wt cells specifically to the mature mucocysts and to their released products. Localization in mutant cells occurred in two different types of cytoplasmic vesicles: small electron dense vesicles (0.3-0.5 microns in diameter) and large electron lucent vacuoles (1.2-3.5 microns in diameter). Immunoblot analyses of homogenates of mutant and wt cells with the anti-34-kDa serum revealed a dominant band in the mutant at Mr 57 kDa whereas the wt showed a dominant band only at Mr 34 kDa. Furthermore, the 57-kDa polypeptide is immunoprecipitated with anti-34-kDa serum from the mutant cell. Further evidence for a precursor relation of the 57-kDa polypeptide in mutant cells to the 34-kDa mucus polypeptide of wt cells was obtained by the use of drugs (monensin, chloroquine, NH4Cl) that block secretory product processing in wt cells. Extracts of drug-treated wt cells showed the presence of a 57-kDa cross reacting band even after 18 h of incubation in growth medium whereas untreated control cells contained the 34-kDa mature protein almost exclusively. These results indicate that processing of the precursor to the 34-kDa polypeptide occurs in an acidic compartment(s) possibly in either the trans Golgi network, or condensing vacuoles or both.     

Heat Shock Induced Change in Protein Ubiquitination in Chlamydomonas

Ubiquitin was purified from pea (Pisum sativum L.) and its antibodywas produced. Western blot analysis showed that the antibodycross-reacted with ubiquitins from a green alga Chlamydomonasreinhardtii, a brown alga Laminaria angustata and a red algaPorphyridium cruentum but not with ubiquitin from a blue-greenalga Synechococcus sp. In Chlamydomonas, the antibody also reactedwith some ubiquitinated proteins including 28- and 31-kDa polypeptides.The isoelectric points of Chlamydomonas ubiquitin and the 28-and 31-kDa ubiquitinated proteins were 8.0, 8.9 and 10.3, respectively.The ubiquitinated proteins, including the 28- and 31-kDa polypeptideswere detected after in vitro ATP-dependent ubiquitination ofChlamydomonas cell extract with ^l25I-labeled bovine ubiquitin.Heat treatment of Chlamydomonas cells (>40°C) causeddrastic increase of ubiquitinated proteins with high mol wt(>60kDa), and coordinated redistribution or decrease of otherubiquitinated proteins and free ubiquitin. Quantitative analysisrevealed that the 28- and 31-kDa ubiquitinated proteins showeddifferent responses against heat stress, i.e. the former beingmore sensitive than the latter. (Received July 10, 1988; Accepted October 4, 1988)     

Molecular Structure of a High-Potential Form of Thylakoid Cytochrome b-559 as Determined by Radiation Inactivation

Cytochrome b-559 in photosystem II can be characteristicallyconverted from a high- to a low-potential form. Taking thisresponse of Cyt b-559 as evidence for the denaturation of proteinmolecules, the sizes of the structures that stabilize the high-potentialform of Cyt b-559 in PS II membranes and thylakoids from spinachwere determined by radiation inactivation. When a target of26 kDa was inactivated in PS II membranes, Cyt b-559 was convertedto the low-potential form. The size was consistent with a molecularweight of Cyt b-559 in a proposed tetrameric structure thatconsists of two sets of 9.2-kDa and 4.3-kDa subunits [Widgeret al. (1985) FEBS Lett. 191: 186–190]. In contrast tothe functional size of 26 kDa in the PS II membranes, the functionalsize was 116 kDa in thylakoid membranes. The results suggestthe presence of an extra 90-kDa electron carrier between a redoxtitrator outside the membranes and the Cyt b-559, which maynot expose its active site to the surface of the thylakoids. (Received March 9, 1989; Accepted June 23, 1989)     

Extensin Secreted into the Culture Medium of Tobacco Cells II. Extensin Subfamilies of Similar Composition

Combining acetic acid extraction and high-performance gel chromatographyin guanidine HCl, extensin secreted into the medium by tobacco(Nicotiana tabacum L. var Xanthi) culture cells was separatedinto three component molecules, namely a major 74-kDa, and twominor 45-and 28-kDa components, in addition to larger oligomers.The sizes of these native extensin molecules were first reasonablyassessed using this gel-chromatography system. After deglycosylationwith hydrogen fluoride, the separation was improved and theestimated molecular sizes were reduced to 52 kDa, 34 kDa and18 kDa, respectively. The amino acid compositions of these componentswere similar, and N-terminal sequences of the 52- and 34-kDacomponents coincided. The relative abundance of the componentswas as follows: oligomers, 46%; 52-kDa, 44%; 34-kDa, 7.7%; 18-kDa,2.2%; respectively, on a protein basis (w/w). Fluorography ofthe acid extract of microsomes from cells labelled with ¹⁴C-prolinerevealed only one precursor band of 110-kDa or 42-kDa underthe glycosylating or non-glycosylating conditions, respectively.The smaller components in the medium may be derived, by proteolyticcleavage, from the major extensin molecule after secretion. (Received October 15, 1990; Accepted May 15, 1991)     

The Ultrastructure of Tetrasporogenesis in the Marine Red Alga Chondria tenuissima (Good, et Woodw.) (Ceramiales, Rhodomelaceae)

Tetraspore development has been studied in Chondria tenuissimausing light and electron microscopy. The transformation of tetrasporangialmother cells into mature tetrasporangia involves a series ofstructural changes, especially of dictyosomes and of the nucleus.The youngest stage of tetrasporogenesis consists of a uninucleatetetraspore mother cell with synaptonemal complexes present duringearly prophase of meiosis I. Mitochondria are aggregated aroundthe nucleus, dictyosome activity is low, and proplastids occurin the peripheral cytoplasm. The cleavage furrows are initiatedalmost concomitantly with commencement of meiosis. When thecleavage furrows are initiated, spherical bodies bounded bytwo membranes are found within the cytoplasm; they develop intovacuoles with fibrillar contents (fv₁), which increase in sizeduring tetraspore development by fusing with each other andwith Golgi vesicles. The Golgi vesicles and the vacuoles withfibrillar contents (fv₁) contribute material to the developingtetraspore wall. During the middle stage of tetraspore formationthe vacuoles with fibrillar contents (fv₁) are dominant, dictyosomeactivity increases, as well as the number of plastids and mitochondria;starch formation also increases. Stacked cisternae of the endoplasmicreticulum are found within the peripheral part of the nucleus.The same nuclear structures are also observed in tetrasporangiaof the marine red alga Gastroclonium clavalum. The final stageis characterized by the disappearance of vacuoles with fibrillarcontents (fv₁) and of the stacked ER within the nucleus, presenceof straight, large dictyosomes which produce cored vesicles,an abundance of starch grains and by the formation of fullydeveloped chlorqplasts. The cored vesicles contain Thiéry-positivematerial and contribute to the formation of vacuoles with fibrouscontents (fv₂) as they are dominant in the tetraspores beforetheir liberation. Rhodophlyla, Chondria, tetrasporogenesis, ultrastructure, Golgi apparatus     

Transgelin: An androgen-dependent protein identified in the seminal vesicles of three Saharan rodents

During the breeding season, a major androgen-dependent protein with an apparent molecular weight of 21 kDa was isolated and purified from the seminal vesicles of three Saharan rodents (MLVSP21 from Meriones libycus, MSVSP21 from Meriones shawi, and MCVSP21 from Meriones crassus). The 21-kDa protein was isolated and purified from soluble seminal vesicle proteins of homogenate by one-dimensional polyacrylamide gel electrophoresis (SDS-PAGE). Using polyclonal antibodies directed against POSVP₂₁ (Psammomys obesus seminal vesicles protein of 21 kDa), a major androgen-dependent secretory protein from sand rat seminal vesicles, identified previously as transgelin, we showed an immunological homology with POSVP₂₁ by immunoblotting. These three major androgen-dependent proteins with a same apparent molecular weight of 21 kDa designated as MLVSP₂₁ (Meriones libycus seminal vesicles protein of 21 kDa), MSVSP₂₁ (Meriones shawi seminal vesicles protein of 21 kDa), and MCVSP₂₁ (Meriones crassus seminal vesicles protein of 21 kDa) were localized by immunohistochemistry and identified by applying a proteomic approach. Our results indicated that the isolated proteins MLSVP₂₁, MSSVP₂₁, and MCSVP₂₁ seem to correspond to the same protein: the transgelin. So that transgelin can be used as a specific marker of these rodent physiological reproduction mechanisms.     

Hydrogen Peroxide-Dependent Oxidation of 3,4-Dihydroxyphenylalanine in Vacuoles of Mesophyll Cells of Vicia faba L. Participation of Peroxidase in the Oxidation

Peroxidase activity and 3,4-dihydroxyphenylalanine (DOPA) werefound in vacuoles isolated from mesophyll protoplasts of Viciafaba L. A peroxidase isozyme localized in vacuoles migratedto the cathode during electrophoresis at pH 8.7, indicatingthat the vacuole peroxidase was a basic isozyme. When isolatedvacuoles were treated with 2 mM H₂O₂, dopachrome, a productof oxidation of DOPA, was formed in a reaction that was inhibitedby KCN and NaN₃. These results suggest that DOPA can serve asa donor of electrons to the peroxidase in vacuoles. (Received December 25, 1989; Accepted March 22, 1990)     

Characterization of DNA-Binding Proteins Involved in the Assembly of Mitochondrial Nucleoids in the Yeast Saccharomyces cerevisiae

Mitochondrial nucleoids (mt-nucleoids) isolated from the yeastSaccharomyces cerevisiae were analyzed to identify the proteincomponents that are involved in the compact packaging of mtDNA.The isolated mt-nucleoids were disassembled by the additionof 2 M NaCl and the disassembled mt-nucleoids were reassembledonce again into compact structures by dialysis against a bufferthat contained NaCl at concentrations below 0.1 M, as monitoredby staining of the DNA with 4',6-diamidino-2-phenylindole. DNA-binding proteins with molecular masses of 67 kDa, 52 kDa,50 kDa, 38 kDa, 30 kDa and 20 kDa were separated from isolatedmt-nucleoids by column chromatography on DNA cellulose afterdigestion of mt-nucleoids by DNase I in the presence or absenceof 2 M NaCl. Purified mtDNA was compactly packaged into nucleoid-likestructures upon the addition of fractions that contained DNA-bindingproteins and subsequent dialysis to reduce the concentrationof NaCl. Five proteins, with molecular masses of 67 kDa, 52kDa, 50 kDa, 38 kDa and 30 kDa, respectively, had lower affinityfor double-stranded DNA than that of the 20-kDa protein. Thefraction that contained the five DNA-binding proteins otherthan the 20-kDa protein was also able to fold mtDNA compactlyinto nucleoid-like structures. By contrast, the combinationof the 20-kDa protein and mtDNA resulted in formation of lesstightly packed, string-of-bead structures. These results suggestthat at least six different DNA-binding proteins are involvedin the organization of the mt-nucleoids. (Received April 7, 1995; Accepted July 10, 1995)     

Isolation of the Photoactive Reaction Center Complex that Contains Three Types of Fe-S Centers and a Cytochrome c Subunit from the Green Sulfur Bacterium Chlorobium limicola f. thiosulfatophilum, Strain Larsen

The photoactive reaction center (RC) complex from the greensulfur bacterium Chlorobium limicola f. thiosulfatophilum, strainLarsen, was isolated after solubilization and ammonium sulfatefractionation followed by ion-exchange chromatography. The spectrumof the complex was almost identical with that of the similarRC complex isolated by Feiler et al. [(1992) Biochemistry 31:2608–2614] except for the presence of cytochrome c₅₅₁instead of c₅₅₃ in the latter study. A molecular ratio of BChla to P840 of the isolated RC complex was assayed to be 25–35.SDSPAGE analysis revealed that the isolated complex containedthree major polypeptides with apparent molecular masses of 68,41 and 21 kDa, respectively. The 21-kDa polypeptide was identifiedto be a heme-binding protein by staining the gel for peroxidaseactivity. The cytochrome c₅₅₁ was oxidized by flash light ina biphasic manner with half times of 90 and 390 µs, respectively,that coincided with the reduction half times of P840⁺. Threedistinct iron-sulfur centers assigned to F_A, F_B and F_x, respectively,from their g-values were detected by EPR spectroscopy at cryogenictemperature. These results suggest that the present preparationcontains a minimal functional unit of the RC of this bacterium,and that this complex appears to lie on a evolutionary linebetween RC's of purple bacteria and photosystem I. (Received August 18, 1992; Accepted October 28, 1992)     

Role of the 25-, 27-, and 29-kilodalton flagellins in Caulobacter crescentus cell motility: method for construction of deletion and Tn5 insertion mutants by gene replacement.

Caulobacter crescentus incorporates two distinct, but related proteins into the polar flagellar filament: a 27-kilodalton (kDa) flagellin is assembled proximal to the hook and a 25-kDa flagellin forms the distal end of the filament. These two proteins and a third, related flagellin protein of 29 kDa are encoded by three tandem genes (alpha-flagellin cluster) in the flaEY gene cluster (S.A. Minnich and A. Newton, Proc. Natl. Acad. Sci. USA 84: 1142-1146, 1987). Since point mutations in flagellin genes had not been isolated their requirement for flagellum function and fla gene expression was not known. To address these questions, we developed a gene replacement protocol that uses cloned flagellin genes mutagenized by either Tn5 transposons in vivo or the replacement of specific DNA fragments in vitro by the antibiotic resistance omega cassette. Analysis of gene replacement mutants constructed by this procedure led to several conclusions. (i) Mutations in any of the three flagellin genes do not cause complete loss of motility. (ii) Tn5 insertions in the 27-kDa flagellin gene and a deletion mutant of this gene do not synthesize the 27-kDa flagellin, but they do synthesize wild-type levels of the 25-kDa flagellin, which implies that the 27-kDa flagellin is not required for expression and assembly of the 25-kDa flagellin; these mutants show slightly impaired motility on swarm plates. (iii) Mutant PC7810, which is deleted for the three flagellin genes in the flaEY cluster, does not synthesize the 27- or 29-kDa flagellin, and it is significantly more impaired for motility on swarm plates than mutants with defects in only the 27-kDa flagellin gene. The synthesis of essentially normal levels of 25-kDa flagellin by strain PC7810 confirms that additional copies of the 25-kDa flagellin map outside the flaEY cluster (beta-flagellin cluster) and that these flagellin genes are active. Thus, while the 29- and 27-kDa flagellins are not absolutely essential for motility in C. crescentus, their assembly into the flagellar structure is necessary for normal flagellar function.     

Purification and Some Properties of Pheophorbidase in Chenopodium album

A novel enzyme, pheophorbidase, which catalyzes the conversionof pheophorbide a to C-13²-carboxylpyropheophorbide a, was purifiedfrom Chenopodium album leaves. The purified enzyme showed twobands of 28 kDa and 29 kDa on SDS-PAGE. The molecular mass ofthe native pheophorbidase was 105 kDa. The N-terminal aminoacid sequence for the 28-kDa protein could be determined, whereasthe N-terminus of the 29-kDa protein was blocked. Immunochemicaland enzyme activity analyses revealed that pheophorbidase islocated in an extra-plastidic part of the cell. (Received September 7, 1998; Accepted October 26, 1998)     

A Prolyl Endoproteinase that Acts Specifically on the Extrinsic 18-kDa Protein of Photosystem II: Purification and Further Characterization

An endoproteinase, which specifically cleaves the Pro12-Leu13bond of the extrinsic 18-kDa protein of PSII, was purified fromPSII membranes of spinach. The presence of 0.05% (w/v) Tween20 and 1 M NaCl was essential for maintenance of proteolyticactivity during the purification. The molecular mass of theenzyme was estimated to be 95 kDa by gel-filtration chromatography.Active fractions contained a polypeptide of 165 kDa that wasconverted into diffusely stained polypeptides of 54 kDa uponreduction with dithiothreitol. The K_m of the 18-kDa proteinin the proteolytic reaction was 0.3 µM. Inhibition ofthe proteolysis by compounds that contain prolyl bonds revealedthat both a prolyl bond and a positive charge are necessaryfor interaction with the proteinase, but some other structuralfactor(s) must also be involved in the high-affinity interactionbetween the proteinase and the 18-kDa protein. Reconstitutionof NaCl-treated PSII membranes with the 23-kDa protein and/orthe 18-kDa protein revealed that the 18-kDa protein was notcleaved by the proteinase when the substrate protein was functionallyassociated with the membranes. A comparison of the propertiesof the proteinase with those of a proline-specific endopeptidasefrom Flavobacterium suggests that these enzymes are quite differentin terms of substrate specificity. (Received December 13, 1993; Accepted March 24, 1994)     

The small GTP-binding proteins in the cytosol of insulin-secreting cells are complexed to GDP dissociation inhibitor proteins.

Ras-related small GTP-binding proteins (SMGs) exist in a cytosolic and a membrane-bound pool. The mechanism regulating the intracellular distribution of SMGs remains to be elucidated. We have, therefore, investigated the properties of SMGs expressed in cells of the insulin-secreting lines RINm5F and HIT-T15. Phase-partitioning analysis revealed that smg25A/rab3A as well as all the SMGs in the 23-27 kDa range, labeled by radioactive GTP after blotting, were hydrophobic, regardless of their subcellular distribution. In contrast, the cytosolic forms of ADP ribosylation factor, rho, and CDC42 were hydrophilic. The cytosolic pool of the 23-27-kDa group, including smg25A/rab3A, sedimented in a sucrose density gradient as complexes with an apparent M(r) of about 80,000, whereas rho and CDC42 were recovered in 45-kDa complexes. ARF, however, was uncomplexed (M(r) close to 20,000). The 80-kDa aggregates were likely to be formed by 1:1 complexes with the regulatory protein smg25/GDP dissociation inhibitor (smg25/GDI). In fact, pure smg25/GDI by sucrose gradient exhibited a molecular mass of 55 kDa, but cosedimented with the 80-kDa complexes in cytosolic extracts of insulin-secreting cells. Moreover, purified smg25/GDI was able to extract the SMGs of the 23-27-kDa group from the membranes. Similarly, in cytosolic extracts, rho/GDI cosedimented with the 45-kDa aggregates. Blocking the synthesis of isoprenoid groups with lovastatin resulted in the appearance in the cytosol of SMGs that were hydrophilic. These SMGs were found to sediment with an apparent M(r) close to 25,000 and to be unable to form complexes with smg25/GDI. Lovastatin treatment also caused the accumulation of the noncomplexed form of CDC42 but not of rho proteins. We propose that 1) except for ARF, all the SMGs detected in the cytosol of insulin-secreting cells are associated in 1:1 complexes with their regulatory proteins; 2) the different SMGs can be subdivided into functional groups according to the regulatory protein bound to them; 3) the formation of the 80-kDa complexes with smg25/GDI and of the CDC42 complexes with rho/GDI necessitate the correct carboxyl-terminal post-translational modification of the SMGs.     

Characterization of a 47-Kilodalton Chlorophyll-Binding Polypeptide (CP-47) Isolated from a Photosystem II Core Complex

The purified photosystem II core complex from spinach with aparticle size of about 480 kDa and containing five constituentpolypeptides was further resolved by octyl-rß-D-glucopyranosidetreatment followed by separation by high-performance liquidchromatography using a gel-permeation column. Of the four clearlyseparated, chlorophyll-containing fractions, one with a particlesize of 170–180 kDa was composed entirely of a single,47-kDa polypeptide. This chlorophyll a-polypeptide containsrß-carotene and pheophytin a, but no plastoquinone.The number of chlorophyll a associated with this polypeptidein situ was estimated to be 6–7 and an oligomeric structureof this polypeptide in vivo was proposed on the basis of itschlorophyll/protein ratio and the isolated particle size. Thecomplex exhibited F-695 emission, but was photochemically inactive.The amino acid composition of the apoprotein was also determined. (Received March 12, 1984; Accepted June 7, 1984)     

Purification and Properties of Cytokinin-Binding Proteins from Tobacco Leaves

A cytokinin-binding protein complex was purified 700-fold fromleaves of tobacco (Nicotiana sylvestris). The purification procedureconsisted of four chromatographic steps on columns of DEAE-cellulose,Mono Q, Phenyl Superose and Superose 12, respectively. The purifiedcytokinin-binding protein complex behaved as a 130-kDa globularprotein on gel filtration. This complex contains two proteinspecies whose molecular masses are estimated to be 57 kDa and36 kDa. Binding to benzyl[8-¹⁴C]adenine was inhibited by adenine,ATP, zeatin and cAMP but not by indoleacetic acid. Scatchardanalysis indicated the existence of at least two cytokinin-bindingsites in the purified complex. The dissociation constant forthe high-affinity site was 2.1 10^-5 M. (Received October 19, 1992; Accepted February 27, 1993)